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Transcript of MUSCLES AND MUSCLE TISSUE. Muscles The most distinguishing functional characteristic of muscles is...
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MUSCLESAND
MUSCLE TISSUE
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Muscles• The most distinguishing functional characteristic of muscles is their
ability to transform chemical energy (ATP) into directed mechanical energy– In doing this, they become capable of exerting force
• Terminology:– Skeletal and smooth muscle cells (but not cardiac muscle cells)
are elongated and, for this reason, are called muscle fibers – Muscle contraction depends on two kinds of myofilaments, which are
the muscle equivalents of the actin-or-myosin-containing cellular microfilaments
• Proteins that play a role in motility and shape changes in virtually every cell in the body
• Prefixes myo or mys (both are word roots meaning “muscle”)• Prefix sarco (flesh), the reference is to muscle
– Example:» Sarcolemma: plasma membrane of muscle cell» Sarcoplasm: muscle fiber cytoplasm
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Types of Muscle Tissue
• Skeletal muscle is associated with the bony skeleton, and consists of large cells that bear striations and are controlled voluntarily
• Skeletal muscle fibers are the longest muscle cells• Only muscle cells subject to conscious control
• Cardiac muscle occurs only in the heart, and consists of small cells that are striated and under involuntary control
• Smooth muscle is found in the walls of hollow visceral organs (stomach, urinary bladder, and respiratory system), and consists of small elongated cells (fibers) that are not striated and are under involuntary control
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Functional Characteristics of Muscle Tissue
• Excitability, or irritability, is the ability to receive and respond to a stimulus– The stimulus is usually a chemical—for example, a
neurotransmitter released by a nerve cell, or a local change on pH
– Response is generation of an electrical impulse that passes along the sarcolemma (plasma membrane) of the muscle cell and causes the cell to contract
• Contractility is the ability to contract (shorten) forcibly when stimulated
• Extensibility is the ability to be stretched or extended– Muscle fibers (cells) shorten when contracted, but they can be
stretched, even beyond their resting length, when relaxed• Elasticity is the ability of a muscle fiber (cell) to resume
to its original length (recoil) after being stretched
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Muscle Functions
• Muscles produce movement by acting on the bones of the skeleton, pumping blood, or propelling substances throughout hollow organ systems (digestive, circulatory, urinary, reproductive systems)
• Muscles aid in maintaining posture by adjusting the position of the body with respect to gravity
• Muscles stabilize joints by exerting tension around the joint
• Muscles generate heat (as they contract) as a function of their cellular metabolic processes– Important in maintaining normal body temperature
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Gross Anatomy of Skeletal Muscle
• Each muscle has a nerve and blood supply that allows neural control and ensures adequate nutrient delivery and waste removal
– In general each muscle is served by one nerve, an artery, and by one or more veins
• All of which enter or exit near the central part of the muscle and branch profusely through its connective tissue sheaths
– Muscle capillaries, the smallest of the body’s blood vessels, are long and winding and have numerous cross-links, features that accommodate changes in muscle length
• They straighten when the muscle is stretched and contort when the muscle contracts
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Capillary Network of Skeletal Muscle
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Connective Tissue Sheaths
• In an intact muscle, the individual muscle fibers (cells) are wrapped and held together by several different connective tissue sheaths (coverings)– Together these connective tissue sheaths
support each cell and reinforce the muscle as a whole:
• Endomysium surrounds each muscle fiber (cell)• Perimysium surrounds groups of muscle fibers• Epimysium surrounds whole muscle
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Endomysium
• A fine sheath of connective tissue consisting mostly of reticular fibers that surround each individual muscle fiber (cell)
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SKELETAL MUSCLE
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Perimysium and Fascicles
• Within each skeletal muscle, the endomysium-wrapped muscle fibers are grouped into fascicles that resemble bundles of sticks
• Surrounding each fascicle is a layer of fibrous connective tissue called perimysium
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SKELETAL MUSCLE
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Epimysium
• An “overcoat” of dense irregular connective tissue surrounds the whole muscle
• Sometimes the epimysium blends with the deep fascia that lies between neighboring muscles or the superficial fascia deep to the skin
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SKELETAL MUSCLE
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Connective Tissue Sheaths of Skeletal Muscle
• All of these connective tissue sheaths are continuous with one another as well as with the tendons that join muscles to bones
• Therefore, when muscle fibers contract, they pull on these sheaths, which in turn transmit the pulling force to the bone to be moved
• They also contribute to the natural elasticity of muscle tissue, and for this reason these elements are sometimes referred to collectively as the “series elastic components”
• They also provide entry and exit routes for the blood vessels and nerve fibers that serve the muscle
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SKELETAL MUSCLE
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Attachments
• Span joints and cause movement to occur from the movable bone (the muscle’s insertion) toward the less movable bone (the muscle’s origin)– In the muscles of the limbs, the origin
typically lies proximal to the insertion
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Attachments
• Muscle attachment may be direct or indirect– Direct: fleshy attachment
• The epimysium of the muscle is fused to the periosteum of a bone or perichondrium of a cartilage
– Indirect:• Much more common because of their durability and small size• The muscle’s connective tissue wrappings extend beyond the
muscle either as a ropelike tendon or as a sheet-like aponeurosis (flat fibrous sheet of connective tissue that attaches muscle to bone or other tissues—may sometimes serve as a fascia)
– Tendons are mostly tough collagenic fibers:» They cross rough bony projections that would tear apart the
more delicate muscle tissues» Because of their relatively small size, more tendons than
fleshy muscles can pass over a joint—thus, tendons also conserve space
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Microscopic Anatomy of a Skeletal Muscle Fiber
• Skeletal muscle fibers are long cylindrical cells with multiple nuclei beneath the sarcolemma
• Skeletal muscle fibers are huge cells– Their diameter typically
ranges from 10 to 100 um—up to ten times that of an average body cell—and their length is phenomenal, some up to 30 cm long
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SKELETAL MUSCLE FIBER
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Microscopic Anatomy of a Skeletal Muscle Fiber
• Sarcoplasm of a muscle fiber is similar to the cytoplasm of other cells, but it contains unusually large amounts of glycosomes (granules of stored glycogen) and substantial amounts of an oxygen-binding protein called myoglobin– Myoglobin, a red pigment that stores oxygen,
is similar to hemoglobin, the pigment that transports oxygen in blood
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Microscopic Anatomy of a Skeletal Muscle Fiber
• The usual organelles are present, along with some that are highly modified in muscle fibers: myofibrils and the sarcoplasmic reticulum
• T tubules are unique modification of the sarcolemma
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Myofibrils (b)
• Each muscle fiber contains a large number of rodlike myofibrils that run parallel to it length
• Densely packed in the fiber that mitochondria and other organelles appear to be squeezed between them
• Myofibrils account for roughly 80% of cellular volume, and contain the contractile elements of the muscle cell
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SKELETAL MUSCLE FIBER
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Striations (c)
• Due to a repeating series of dark A bands and light I bands
• A band has a lighter stripe in its midsection called the H zone– Visible only in relaxed
muscle fibers– Each H zone is bisected
vertically by a dark line called the M line
• The I bands also have a midline interruption, a darker area called the Z disc
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SARCOMERE
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Striations (c)Sarcomere
• Region of a myofibril between two successive Z dics, that is, it contains an A band flanked by half an I band at each end
• Smallest contractile unit of a muscle fiber
• Functional units of skeletal muscles
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SARCOMERE
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Myofilaments (d)
• If we examine the banding pattern of a myofibril at the molecular level, we see that it arises from an orderly arrangement of two types of even smaller structures, called myofilaments or filaments, within the sarcomeres
• Myofilaments make up the myofibrils, and consist of thick and thin filaments
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SKELETAL MUSCLE FIBER
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Myofilaments (d)
• Central thick filaments extend the entire length of the A band
• The more lateral thin filaments extend across the I band and partway into the A band
• The Z disc composed of the protein nebulin anchors the thin filaments and connects each myofibril to the next throughout the width of the muscle cell
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SKELETAL MUSCLE FIBER
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Myofilaments (d)
• H zone of the A band appears less dense because the thin filaments do not extend into this region
• M line in the center of the H zone is slightly darker because of the presence of fine protein strands that hold adjacent thick filaments together
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SKELETAL MUSCLE FIBER
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Ultrastructure and Molecular Composition of the Myofilaments
• There are two types of myofilaments in muscle cells:– (a): thick filaments are
composed primarily of bundles of protein myosin
• Each myosin molecule has a rodlike tail terminating in two globular heads and a tail of two interwoven heavy polypeptide chains
• The heads link the thick and thin filaments together (cross bridges) during contraction
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THICK/THIN FILAMENT
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Ultrastructure and Molecular Composition of the Myofilaments
• (b+d): Each thick filament contains about 200 myosin molecules bundled together with their tails forming the central part of the thick filament and their heads facing outward and in opposite direction at each end
• Besides bearing actin binding sites, the heads contain ATP binding sites and ATPase enzymes that split ATP to generate energy for muscle contraction
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THICK/THIN FILAMENT
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Ultrastructure and Molecular Composition of the Myofilaments
• (c): Thin filaments are composed of strands of actin
• The backbone of each thin filament appears to be formed by an actin filament that coils back on itself, forming a helical structure that looks like a twisted double strand of pearls
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THICK/THIN FILAMENT
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THICK/THIN FILAMENT
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Ultrastructure and Molecular Composition of the Myofilaments
• Several regulatory proteins are also present in the thin filament– Two strands of tropomyosin, a rod-shaped protein, spiral about
the actin core and help stiffen it– The other major protein in the thin filament, troponin, is a three-
polypeptide complex• One of these polypeptides (TnI) is an inhibitory subunit that binds to
actin• Another (TnT) binds to tropomyosin and helps position it on actin• The third (TnC) binds calcium ions
• Both tropomyosin and troponin are regulatory proteins present in thin filaments and help control the myosin-actin interactions involved in contraction
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Skeletal Muscle Fibers (cells)
• Contain two sets of intracellular tubules that participate in regulation of muscle contraction:– 1. Sarcoplasmic reticulum– 2. T tubules
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Sarcoplasmic (SR)
• Is a smooth endoplasmic reticulum surrounding each myofibril
• Major role is to regulate intracellular levels of ionic calcium:– It stores calcium and
releases it on demand when the muscle fiber is stimulated to contract
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Relationship of the Sarcoplasmic Reticulum and T tubules to the Myofibrils of Skeletal Muscle
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T Tubules• Are infoldings of the
sarcolemma that penetrate into the cell interior to form an elongated tube
• Muscle contraction is ultimately controlled by nerve-initiated electrical impulses that travel along the sarcolemma
• Because T tubules are continuations of the sarcolemma, they can conduct impulses to the deepest regions of the muscle cell and to every sarcomere– These impulses signal for
the release of calcium from the adjacent terminal cisternae
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Relationship of the Sarcoplasmic Reticulum and T tubules to the Myofibrils of Skeletal Muscle
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Sliding Filament Model of Contraction
• Sliding Filament Theory of Contraction:– States that during contraction the thin
filaments slide past the thick ones so that the actin and myosin filaments overlap to a greater degree
– Overlap between the myofilaments increases and the sarcomere and the sarcomere shortens
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Sliding Filament Model of Contraction
• (1): Relaxed State:– In a relaxed muscle fiber (cell), the thick and thin filaments
overlap only slightly– When muscle fibers are stimulated by the nervous system, the
cross bridges latch on to myosin binding sites on actin in the thin filaments, and the sliding begins
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SLIDING FILAMENT MODEL
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Sliding Filament Model of Contraction
• (2): Each cross bridge attaches and detaches several times during a contraction, acting like a tiny ratchet to generate tension and propel the thin filament toward the center of the sacromere
• As this event occurs simultaneously in sacromeres throughout the cell, the muscle cell shortens
• Thin filaments slide centrally, the Z dics to which they are attached are pulled toward the thick filaments
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SLIDING FILAMENT MODEL
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Sliding Filament Model of Contraction
• (3): Fully Contracted:– The distance between successive Z dics is reduced, the I bands
shorten, the H zones disappear, and the contiguous A bands move closer together but do not change in length
– Z dics abut the thick filaments and the thin filaments overlap each other
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SLIDING FILAMENT MODEL
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Physiology of a Skeletal Muscle Fiber
• For a skeletal muscle fiber to contract, it must be stimulated by a nerve ending and must propagate an electrical current, or action potential, along its sarcolemma– This electrical event causes the short-lived
rise in intracellular calcium ion levels that is the final trigger for contraction• The series of events linking the electrical
signal to contraction is called excitation-contraction coupling
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Neuromuscular Junction and the Nerve Stimulus
• (a):Skeletal muscle cells are stimulated by motor neurons of the somatic nervous system
– These motor neurons are in the brain and spinal cord but their axons (bundled in nerves) extend to the muscle cells
• Axons divide profusely as it enters the muscle, and each axonal ending forms a branching neuromuscular junction with a single muscle fiber
• The neuromuscular junction is a connection between an axon terminal and a muscle fiber that is the route of electrical stimulation of the muscle cell
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Synaptic Cleft• (b): Although the axonal ending and
the muscle fiber are exceedingly close (1-2 nm apart), they remain separated by a space, the synaptic cleft, filled with a gel-like extracellular substance rich in glycoproteins
• Within the flattened moundlike axonal endings are synaptic vesicles, small membranous sacs containing the neurotransmitter acetylcholine (ACh)
• The motor end plate, the troughlike part of the muscle fiber’s sarcolemma that helps form the neuromuscular junction, is highly folded
– These junctional folds provide a large surface area for the millions of ACh receptors located there
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Nerve Impulse• (b+c) When a nerve impulse
reaches the end of an axon, voltage-gated calcium channel in its membrane open, allowing Ca2+ to flow in from the extracellular fluid
– The presence of the calcium inside the axon terminal causes some of the synaptic vesicles to fuse with the axonal membrane and release ACh into the synaptoic cleft by exocytosis
– ACh diffuses across the cleft and attaches to the flowerlike ACh receptors on the sarcolemmea
• The electical events triggered in a sarcolemma when ACh binds are similar to those that take place in excited nerve cell membranes
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Nerve Impulse
• (c): After ACh binds to the ACh receptors, it is swiftly broken down to its building blocks, acetic acid and choline, by acetylcholinesterase, an enzyme located on the sarcolemma at the neuromuscular junction and in the synaptic cleft– This destruction of ACh
prevents continued muscle fiber contraction in the absence of additional nervous system stimulation
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NEUROMUSCLE JUNCTION
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HOMEOSTATIC IMBALANCE
• Many toxins, drugs, and diseases interfere with events at the neuromuscular junction– Example: myasthenia gravis, a disease
characterized by dropping of the upper eyelids, difficulty swallowing and talking, and generalized muscle weakness, involves a shortage of ACh receptors
• Serum analysis reveals antibodies to ACh receptors, suggesting that myasthenia gravis is an autoimmune disease
• Although normal numbers of receptors are initially present, they appear to be destroyed as the disease progresses
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Generation of an Action Potential Across the Sarcolemma
• Like the plasma membrane of all cells, a resting sarcolemma is polarized– That is, a voltmeter would show there is potential
difference (voltage) across the membrane and the inside is negative relative to the outer membrane
• Action Potential occurs in response to acetylcholine binding with receptors on the motor end plate– It involves the influx of sodium ions, which makes
the membrane potential slightly less negative
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ACTION POTENTIAL MUSCLE
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ACTION POTENTIAL MUSCLE
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Excitation-Contraction Coupling
• Is the sequence of events by which transmission of an action potential along the sarcolemma results in the sliding of the myofilaments– The electrical signal does not act directly
on the myofilaments; rather, it causes the rise in intracellular calcium ion concentrations that allows the filaments to slide
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Excitation-Contraction Coupling
• (1): The action potential propagates along the sarcolemma and down the T tubules
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Relationship of the Sarcoplasmic Reticulum and T tubules to the Myofibrils of Skeletal Muscle
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Excitation-Contraction Coupling
• (2): Transmission of the action potential past the triads causes the terminal cisternae of the sarcoplasmic reticulum (SR) to release Ca2+ into the sarcoplasm, where it becomes available to the myofilaments– Because these events occur
at every triad in the cell, within 1 ms massive amounts of Ca2+ flood into the sarcoplasm from the SR cisternae
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Excitation-Contraction Coupling
• (3): Some of this calcium binds to troponin, which changes shape and removes the blocking action of tropomyosin
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Excitation-Contraction Coupling
• (4): When the intracellular calcium is about 10-5 M, the myosin heads attach and pull the thin filaments toward the center of the sarcomere
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Excitation-Contraction Coupling
• (5): The short-lived Ca2+ signal ends, usually within 30 ms after the action potential is over
• The fall in Ca2+ levels reflects the operation of a continuously active, ATP-dependent calcium pump that moves Ca2+ back into the SR to be stored once again
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Excitation-Contraction Coupling
• (6): When intracellular Ca2+ levels drop too low to allow contraction, the tropomyosin blockade is reestablished and myosin ATPases are inhibited
• Cross bridge activity ends and relaxation occurs
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EXCITATION-CONTRACTION
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Ionic Calcium Regulation
• Ionic calcium in muscle contraction is kept at almost undetectable low levels within the cell through the regulatory action of intracellular proteins– Reason for this is:
• ATP provides the cell’s energy source and its hydrolysis yields inorganic phosphates (Pi)
– If the intracellular level of Ca2+ were always high, calcium and phosphates would combine to form hydroxyapatite crystals, the stony-hard salts found in bone matrix
» Such calcified cells would die» Calcium also promotes breakdown of glycogen and
ATP synthesis
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Muscle Fiber Contraction
• Cross bridge attachment to actin requires Ca2+
• (a):When intracellular calcium levels are low, the muscle cell is relaxed, and the active (myosin binding) sites on actin are physically blocked by tropomyosin molecules
• Tropomyosin blocks the binding sites on actin, preventing attachment of myosin cross bridges and enforcing the relaxed muscle state
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IONIC CALCIUM CONTRACTION
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Muscle Fiber Contraction
• (b): As Ca2+ levels rise, the ions bind to regulatory sites on troponin TnC, causing it to change shape
• At higher intracellular Ca2+ concentrations, additional calcium binds to (TnC) of troponin
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IONIC CALCIUM CONTRACTION
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Muscle Fiber Contraction
• (c): Calcium activated troponin undergoes a conformational change that moves the tropomysin away from actin’s binding sites
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IONIC CALCIUM CONTRACTION
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Muscle Fiber Contraction
• (c+d): This event moves tropomyosin deeper into the groove of the actin helix and away from the myosin binding sites
• Thus, the tropomyosin “blockage” is removed when sufficient calcium is present
• (d): This displacement allows the myosin heads to bind and cycle, and contraction (sliding of the thin filaments by the myosin cross bridges) begins
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IONIC CALCIUM CONTRACTION
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Sequence of events involved in the sliding of the thin filaments during contraction
• (1): Cross bridge formation:– The activated myosin
heads are strongly attracted to the exposed binding sites on actin and cross bridges form
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Sequence of events involved in the sliding of the thin filaments during contraction
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Sequence of events involved in the sliding of the thin filaments during contraction
• (2): The working (power) stroke:– As the myosin head
binds, it pivots changing from its high-energy configuration to its bent, low-energy shape, which pulls on the thinfilament, sliding it toward the center of the sarcomere
– At the same time, inorganic phosphate (Pi) and ADP generated during the prior contraction cycle are released sequentially from the myosin head
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Sequence of events involved in the sliding of the thin filaments during contraction
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Sequence of events involved in the sliding of the thin filaments during contraction
• (3): Cross bridge detachment:– As a new ATP
molecule binds to the myosin head, myosin’s hold on actin loosens and the cross bridge detaches from actin
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Sequence of events involved in the sliding of the thin filaments during contraction
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Sequence of events involved in the sliding of the thin filaments during contraction
• (4): Cocking of the myosin head:– The ATPase in the myosin
head hydrolyzes ATP to ADP and Pi which provides the energy needed to return the myosin head to its prestroke high-energy, or cocked position
– This provides the potential energy needed for its next sequence of attachment and working stroke
• The ADP and Pi remain attached to the myosin head during this phase
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Sequence of events involved in the sliding of the thin filaments during contraction
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Sequence of events involved in the sliding of the thin filaments during contraction
• At this point, the cycle is back where it started– Myosin head is in its upright high-energy
configuration, ready to take another “step” and attach to an actin site farther along the thin fialment
– This “walking” of the myosin heads along the adjacent thin filaments during muscle shortening is much like a centpede’s gait
• Because some myosin heads (“legs”) are always in contact with actin (the “ground”), the thin filaments cannot slide backward as the cycle is repeated again and again
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Sequence of events involved in the sliding of the thin filaments during contraction
• Because contracting muscles routinely shorten 30% to 35% of their total resting length, each myosin cross bridge must contract and detach many times during a single contraction
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HOMEOSTATIC IMBALANCE• Rigor mortis (death rigor) illustrates the fact that cross bridges
detachment is ATP driven:– Most muscles begin to stiffen 3 to 4 hours after death– Peak rigidity occurs at 12 hours and then gradually
dissipates over the next 48 to 60 hours• Dying cells are unable to exclude calcium (which is in
higher concentration in the extracellular fluid), and the calcium influx into muscle cells promotes formation of myosin cross bridges:
– Shortly after breathing stops, however, ATP synthesis ceases, and cross bridge detachment is impossible
– Actin and myosin become irreversibly cross-linked, producing the stiffness of rigor mortis, which then disappears as muscle proteins break down several hours after death
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Contraction of a Skeletal MuscleTerms
• Muscle tension: force exerted by a contracting muscle• Load: opposing force exerted on the muscle by the weight of the
object to be moved• A contracting muscle does not always shorten and move the load
– If muscle tension develops but the load is not moved, the contraction is called isometric (“same measure”)
– If the muscle tension developed overcomes the load and muscle shortening occurs, the contraction is isotonic
• It is important to remember in the following graphs that:– Increasing muscle tension is measured in isometric
contractions– The amount of shortening is measured in isotonic
contractions
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Motor Unit
• Consists of a motor neuron and all the muscle fibers (cells) it innervates– As an axon enters a
muscle, it branches into a number of terminals, each of which forms a neuromuscular junction with a single muscle fiber (cell)
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MOTOR UNIT
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Muscle Twitch
• Is the response of a motor unit to a single action potential of its motor neuron
• Myogram: apparatus that can record graphically a twitch
• Every twitch has three distinct phases:– 1. Latent Phase (a): first few
milliseconds following stimulation when excitation-contraction coupling is occurring
• Muscle tension is beginning to increase but no response is seen on the myogram
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MUSCLE TWITCH
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Muscle Twitch
• 2. Period of Contraction (a):– When cross bridges
are active, from the onset to the peak of tension development
– If the tension (pull) becomes great enough to overcome the resistance of a load, the muscle shortens
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MUSCLE TWITCH
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Muscle Twitch
• 3. Period of Relaxation (a): – Final phase– Initiated by reentry of
Ca2+ into the sarcoplasmic reticulum (SR)
– Because contractile force is no longer being generated, muscle tension decreases to zero
– If the muscle shortened during contaction, it now returns to its initial length
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MUSCLE TWITCH
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Muscle Twitch
• (b): Twitch contraction of some muscles are:– Rapid and brief:
Extraocular (eye) muscle– Slower and longer:
• Gastrocnemius and soleus of the calf
• These differences between muscles reflect metabolic properties of the myofibrils and enzyme variations
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MUSCLE TWITCH
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Graded Muscle Responses
• Healthy muscle contractions are relatively smooth and vary in strength as different demands are placed on them– These variations are referred to as graded
muscle responses
• Can be graded in two ways:– By changing the frequency of stimulation– By changing the strength of the stimulus
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Muscle Response to Change in Stimulation Frequency
• If two or more identical stimuli (nerve impulses) are delivered to a muscle in rapid succession, the second twitch will be stronger than the first– On a myogram the second or more twitches will
appear to ride on the shoulders of the first (previous)– This phenomenon, called wave summation, occurs
because the second contraction occurs before the muscle has completely relaxed
• Muscle is already partially contracted when the next stimulus arrives and more calcium is being released to replace that being reclaimed by the SR, muscle tension produced during the second contraction causes more shortening than the first
– THE CONTRACTIONS ARE SUMMED
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Muscle Response to Change in Stimulation Frequency
• 1. A single stimulus is delivered, and the muscle contracts and relaxes (twitch contraction)
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Muscle Response to Change in Stimulation Frequency
• 2. Stimuli are delivered more freequently, so that the muscle does not have adequate time to relax completely, and contaction force increases (wave summation)– Refractory period is honored
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Muscle Response to Change in Stimulation Frequency
• Tetanus: a smooth, sustained muscle contraction resulting from high-frequency stimulation
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Muscle Response to Change in Stimulation Frequency
• 3. A second stimulus is delivered before repolarization is complete, no summation occurs
• More complete twitch fusion (unfused or incomplete tetanus) occurs as stimuli are delivered more rapidly
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Muscle Response to Change in Stimulation Frequency
• 4. Fused or complete tetanus, a smooth, continuous contraction without any evidence of relaxation occurring
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Muscle Response to Change in Stimulation Frequency
• Prolonged tetanus inevitably leads to muscle fatigue
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Muscle Response to Change in Stimulation Frequency
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Muscle Responses to Stronger Stimuli
• Although wave summation contributes to contractile force, its primary function is to produce smooth, continuous muscle contractions by rapidly stimulating a specific number of muscle cells
• The force of contraction is controlled more precisely by multiple motor unit summation (recruitment)– Increasing the voltage to the muscle fibers
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Muscle Responses to Stronger Stimuli
• (a/b1):The stimulus at which the first observable contraction occurs is called the threshold stimulus
• Beyond this point, the muscle contracts more and more vigorously as the stimulus strength is increased (a/b2)
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Muscle Responses to Stronger Stimuli
• (a/b3): The maximal stimulus is the strongest stimulus that produces increased contractile force– It represents the point at
which all the muscle’s motor units are recruited
• Increasing the stimulus intensity beyond the maximal stimulus does not produce stronger contraction (b3)
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STIMULATION INTENSITY
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Treppe: The Staircase Effect• Increasing availability of Ca2+ in
the sarcoplasm• As muscles begin to work and
liberate more heat, enzymes become more efficient
• These factors produce a slightly stronger contraction with each successive stimulus during the initial phase of muscle activity
• Basis of the warm-up period required of athletes
• Graph: although the stimuli are of the same intensity and the muscle is not being stimulated rapidly, the first few contractile responses get stronger and stronger
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TREPPE: STAIRCASE PHENOMENON
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Muscle Tone
• Is the phenomenon of muscles exhibiting slight contraction, even when at rest, which keeps muscles firm, healthy, and ready to respond– Does not produce active movements, but it
keeps the muscles firm, healthy, and ready to respond to stimulation
– Stabilizes joints and maintains posture
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Isotonic and Isometric Contractions
• Isotonic (a):– Concentric contractions:
• Muscle length shortens and moves the load
• Once sufficient tension has developed to move the load, the tension remains relatively constant through the rest of the contractile period
• Isotonic contractions result in movement occurring at the joint and shortening of muscles
– Eccentric contractions:• Muscle contracts as it
lengthens
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ISOTONIC
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Isotonic and Isometric Contractions
• Squats, or deep knee bends, provide a simple example of how concentric and eccentric contractions work together– As the knees flex, the powerful quadriceps muscles of the
anterior thigh lengthen (are stretched), but at the same time they also contract (eccentrically) to counteract the force of gravity and contol the descent of the torso (“muscle braking”) and prevent joint injury
– Raising the body back to its starting position requires that the same muscles contract (shorten) concentrically as they shorten to extend the knees again
• All jumping and throwing activities involve both types (concentric and eccentric) contractions
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Isotonic and Isometric Contractions
• Isometric contractions result in increases in muscle tension, but no lengthening or shortening of the muscle occurs
• Occurs when a muscle attempts to move a load that is greater than the force (tension) the muscle is able to develop
– Lifting a piano• Muscles that act primarily to
maintain upright posture or to hold joints in stationary positions while movements occur at other joints are contracting isometrically
– In the knee bend example, the quadriceps muscles contract isometrically when the squat position is held for a few seconds to hold the knee in the flexed position
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ISOMETRIC
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Muscle Metabolism
• ATP is the only energy source used directly for contractile activities, it must be regenerated as fast as it is broken down if contraction is to continue– Muscles contain very little stored ATP, and
consumed ATP is replenished rapidly through:
• 1. Phosphorylation by creatine phosphate• 2. Glycolysis and anaerobic respiration• 3. Aerobic respiration
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Phosphorylation of ADP by Creatine Phosphate
• As we begin to exercise vigorously, ATP stored in working muscles is consumed within a few twitches– Creatine phosphate (CP), a unique high-energy molecule stored in
muscles, is tapped to regenerate ATP while the metabolic pathways are adjusting to the suddenly higher demands for ATP
• The result of coupling CP with ADP is almost instant transfer of energy and a phosphate group from CP to ADP to form ATP
• Creatine phosphate + ADP → creatine + ATP
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Phosphorylation of ADP by Creatine Phosphate
• Together, stored ATP and CP provide for maximum muscle power for 10 to 15 seconds—long enough to energize a 100-meter dash– The coupled reaction is readily reversible
• CP reserves are replenished during periods of inactivity
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Anaerobic MechanismGlycolysis and Lactic Acid Formation
• As stored ATP and CP are used, more ATP is generated by catabolism of glucose obtained from the blood or by breakdown of glycogen stored in the muscle– Glycolysis:
• Initial phase of glucose respiration
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Anaerobic MechanismGlycolysis and Lactic Acid Formation
• Glycolysis does not require oxygen and is referred to as an anaerobic pathway
• Glucose is broken down to two pyruvic acid molecules, releasing enough energy to form small amounts of ATP
– Pyruvic acid can enter the mitochondria and enter the aerobic pathway– BUT, when muscles contract vigorously (over 70%), the bulging muscles
compress the blood vessels within them, impairing blood flow and hence oxygen delivery
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Anaerobic MechanismGlycolysis and Lactic Acid Formation
• Under these anaerobic conditions, most of the pyruvic acid produced during glycolysis is converted into lactic acid
• Called anaerobic glycolysis• Most of the lactic acid diffuses out of the muscles into the bloodstream and is
completely gone from the muscle tissue within 30 minutes after exercise stops• Lactic acid is picked up by the liver, heart, or kidney cells and used as an
energy source (liver can reconvert lactic acid to pyruvic acid or glucose)
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Providing Energy for Contraction
• Together, stored ATP and CP and the glycolysis-lactic acid system can support strenuous muscle activity for nearly a minute
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Aerobic Respiration
• During rest and light to moderate exercise, even if prolonged, 95% of the ATP used for muscle activity comes from aerobic respiration
• Aerobic respiration occurs in the mitochondria, requires oxygen, and involves a sequence of chemical reactions in which the bonds of fuel molecules are broken and the energy released is used to make ATP
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Aerobic Respiration
• During aerobic respiration, which includes glycolysis and the reactions that take place in the mitochondria, glucose is broken down entirely, yielding water, carbon dioxide, and large amounts of ATP as the final products
• Glucose + oxygen → carbon dioxide + water + ATP
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Aerobic Respiration
• Aerobic respiration provides a high yield of ATP (about 36 ATPs per glucose), but it is relatively sluggish because of its many steps and it requires continuous delivery of oxygen and nutrient fuels to keep it going
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ENERGY SYSTEM
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Energy Systems Used During Sports Activities
• Muscles will function aerobically as long as there is adequate oxygen, but when exercise demands exceed the ability of muscle metabolism to keep up with ATP demand, metabolism converts to anaerobic glycolysis
• The length of time a muscle can continue to contract using aerobic pathways is called aerobic endurance, and the point at which muscle metabolism converts to anaerobic glycolysis is called anaerobic threshold
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ENERGY SYSTEM PEAK
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Energy Systems Used During Sports Activities
• Activities that require a surge of power but last only a few seconds, such as weight lifting, diving, and sprinting, rely entirely on ATP and CP stores
• The more on-and–off or burstlike activities of tennis, soccer, and a 100-meter swim appear to be fueled almost entirely by anaerobic glycolysis
• Prolonged activities such as marathon runs and jogging, where endurance rather than power is the goal, depend mainly on aerobic respiration
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Muscle Fatigue
• When oxygen is limited and ATP production fails to keep pace with ATP use, muscles contract less and less effectively and ultimately muscle fatigue sets in
• It is a state of physiological inability to contract even though the muscle still may be receiving stimuli
• Results from a relative deficiency of ATP, not its total absence– Many metabolic reasons for this deficiency
» Ionic imbalances» Intracellular accumulation of lactic acid» Muscle pH changes
– Quite different from psychological fatigue, in which the flesh is still able to perform but we feel tired
• It is the will to win in the face of psychological fatigue that sets athletes apart from the rest of us
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Oxygen Debt• Whether or not fatigue occurs, vigorous exercise causes a muscle’s
chemistry to change dramatically• For a muscle to return to its resting state, its oxygen reserves
must be replenished, the accumulated lactic acid must be reconverted to pyruvic acid, glycogen stores must be replaced, and ATP and creatine phosphate reserves must be resynthesized
• Additionally, the liver must convert any lactic acid persisting in blood to glucose or glycogen
• During anaerobic muscle contraction, all of these oxygen-requiring activities occur more slowly and are deferred until oxygen is again available– THUS, we say an oxygen debt is incurred, which must be repaid– OXYGEN DEBT is defined as the extra amount of oxygen that the
body must take in for these restorative processes• Represents the difference between the amount of oxygen needed for
totally aerobic muscle activity and the amount actually used
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Heat Production During Muscle Activity
• Is considerable:– It requires release of excess heat through
homeostatic mechanisms such as sweating and radiation from the skin
• Shivering represents the opposite end of homeostatic balance, in which muscle contractions are used to produce more heat
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Force of Muscle Contraction
• Affected by: (a)– 1. Number of muscle fibers stimulated
• As a number of muscle fibers stimulated increases, force of contraction increases– 2. Relative size of the fibers
• Large muscle fibers generate more force than smaller muscle fibers– 3. Frequency of stimulation
• As the rate of stimulation increases, contractions sum up, ultimately producing tetanus and generating more force
– 4. Degree of muscle stretch• There is an optimal length-tension relationship when the muscle is slightly stretched and there is slight
overlap between the myofibrils
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MUSCLE CONTRACTION
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STIMULATION FREQUENCY TENSION
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LENGTH-TENSION
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Velocity and Duration of Muscle Contraction
• There are three muscle fiber types:• Slow oxidative fibers
– Contract slowly– Depends on aerobic mechanisms– Fatigue resistance and high endurance– Thin– Little power– Many mitochondria– Rich capillary supply– Is red
• Fast oxidative fibers, or fast glycolytic fibers– Does not use oxygen– Few mitochondria– Low capillary supply– Larger cells– Tire quickly (fatigue easily)– More power – Short-term, rapid, intense movements
– Muscle fiber type is a genetically determined trait, with varying percentages of each fiber type in every muscle, determined by specific function of a given muscle
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MUSCLE CONTRACTION
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Load
• Because muscles are attached to bones, they are always pitted against some resistance, or load, when they contract– As load increases,
the slower the velocity (b) and shorter the duration of contraction (a)
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LOAD INFLUENCE
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LOAD INFLUENCE
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Recruitment
• Just as many hands on a project can get a job done more quickly and also can keep working longer, the more motor units that are contracting, the faster and more prolonged the contraction
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Effect of Exercise on Muscles
• When muscles are used actively or strenuously, muscles may increase in size or strength or become more efficient and fatigue resistant– Muscle inactivity always leads to muscle
weakness and wasting
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Adaptations to Exercise
• Aerobic, or endurance, exercise such as swimming, jogging, fast walking, and biking results in several recognizable changes in skeletal muscles
• Promotes an increase in capillary penetration of muscle fibers
• Increase in the number of mitochondria within the cells• Fibers (cells) synthesize more myoglobin
– Leading to more efficient metabolism especially in slow oxidative fibers, which depend primarily on aerobic pathways
– Does not promote significant skeletal muscle hypertrophy, even though the exercise may go on for hours
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Adaptations to Exercise
• Muscle hypertrophy, illustrated by the bulging biceps and chest muscles of a professional weight lifter, results mainly from high-intensity resistance exercise (typically under anaerobic conditions) such as weight lifting or isometric exercise, in which the muscles are pitted against high-resistance or immovable forces
• Strength, not stamina, is important• The increased muscle bulk largely reflects in the size of
individual muscle fibers (particularly the fast glycolytic variety) rather than an increased number of muscle fibers
• Promotes an increase in the number of mitochondria, myofilaments and myofibrils, and glycogen storage
• Amount of connective tissue between the cells also increases– Collectively these changes cause hypertrophied cells which
promotes significant increases in muscle strength and size
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Adaptations to Exercise
• Resistance training can produce magnificently bulging muscles, but if done unwisely, some muscles may develop more than others– Because muscles work in antagonistic pairs (or
groups), opposing muscles must be equally strong to work together smoothly
– When muscle training is not balanced, individuals can become muscle-bound, which means they lack flexibility, have a generally awkward stance, and are unable to make full use of their muscles
• A program that alternates aerobic activities with anaerobic ones provides the best program for optimal health
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Training Smart
• Regardless of your choice—running, lifting weights, or tennis—exercise stresses muscles– Muscle fibers tear, tendons stretch, and
accumulation of lactic acid in the muscle causes pain:
• Effective training walks a fine line between working hard enough to improve and preventing overuse injuries
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SMOOTH MUSCLE
• Muscle in the walls of all the body’s hollow organs is almost entirely smooth muscle
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Microscopic Structure of Smooth Muscle
• Smooth muscle cells are small, spindle-shaped cells with one central nucleus
– Shorter than skeletal muscle cells• Lack the coarse connective tissue
coverings of skeletal muscle– Contain small amounts of
connective tissue secreted by the smooth muscles themselves which contain blood vessels and nerves
• Smooth muscle cells are usually arranged into sheets of opposing fibers, forming a longitudinal layer and a circular layer
– Longitudinal arrangement can push and circular can squeeze
• Contraction of the opposing layers of muscle leads to a rhythmic form of contraction, called peristalsis, which propels substances through the organs
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SMOOTH MUSCLE
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Microscopic Structure of Smooth Muscle
• Smooth muscle lacks neuromuscular junctions, but have varicosities instead, numerous bulbous swellings that contains innervated nerves that release neurotransmitters to a wide synaptic cleft in the general area of the smooth muscle cell– Such junctions are called
diffuse junctions
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INNERVATION of
SMOOTH MUSCLE
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Microscopic Structure of Smooth Muscle
– Smooth muscle cells have a less developed sarcoplasmic reticulum, sequestering large amounts of calcium in extracellular fluid within caveolae in the cell membrane
– Smooth muscle has no striations, no sarcomeres, a lower ratio of thick to thin filaments when compared to skeletal muscle, and has tropomyosin but no troponin
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Microscopic Structure of Smooth Muscle
• Smooth muscle thick and thin filaments are arranged diagonally within the cell so that they spiral down the long axis of the cell like the stripes on a barber pole– Contract in a twisting manner like a cork screw
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Microscopic Structure of Smooth Muscle
• Smooth muscle fibers contain longitudinal bundles of noncontractile intermediate filaments that resist tension– These attach at regular intervals to structures called dense
bodies• The dense bodies which are tethered to the sarcolemma, act as
anchoring points for thin filaments
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Microscopic Structure of Smooth Muscle
• During contraction, areas of the sarcolemma between the dense bodies bulge outward, giving the cell a puffy appearance
• Dense bodies at the sarcolemma surface also bind the muscle cell to the connective tissue fibers outside the cell (endomysium ) and to adjacent cells, an arrangement that transmits the pulling force to the surrounding connective tissue and that partly accounts for the synchronous contraction of most smooth muscle
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SMOOTH MUSCLE
• Contraction of Smooth Muscle– Mechanism and Characteristics of Contraction
• Smooth muscle fibers exhibit slow, synchronized contractions due to electrical couplings by gap junctions
• Like skeletal muscle, actin and myosin interact by the sliding filament mechanism
– The final trigger for contraction is a rise in intracellular calcium level, and the process is energized by ATP
• During excitation-contraction coupling, calcium ions enter the cell from the extracellular space, bind to calmodulin, and activate myosin light chain kinase, powering the cross-bridging cycle
• Smooth muscle contracts more slowly and consumes less ATP than skeletal muscle
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SMOOTH MUSCLE CELL
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SMOOTH MUSCLE CELL
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Contraction of Smooth Muscle
• Contraction mechanism in smooth muscle is similar to contraction in skeletal muscle– Except:
• 30 times longer to contract and relax• Can maintain the same contractile tension for
prolonged periods at less energy• Low energy requirements• Maintains a moderate degree of contraction
(smooth muscle tone), day in and day out without fatiguing
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Regulation of Contraction
• Autonomic nerve endings release either acetylcholine or norepinephrine, which may result in excitation of certain groups of smooth muscle cells, and inhibition of others
• Hormones and local factors, such as lack of oxygen, histamine, excess carbon dioxide, or low pH, act as signals for contraction
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Special Features of Smooth Muscle Contraction
• Stretching of smooth muscle also provokes contraction, which automatically moves substances along an internal tract– The increased tension persists only briefly; soon the muscle adapts to
its new length and relaxes, while still retaining the ability to contract on demand
– This stress-relaxation response allows a hollow organ to full or expand slowly to accommodate a greater volume without promoting strong contractions that would expel their contents
• This is an important attribute, because organs such as the stomach and intestine must be able to store their contents temporarily to provide sufficient time for digestion and absorption of the nutrients
• Smooth muscle stretches more and generates more tension when stretched than skeletal muscle
• Hyperplasia, an increase in cell number through division, is possible in addition to hypertrophy, an increase in individual cell size
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Types of Smooth Muscle
• Single-unit smooth muscle, called visceral muscle, is the most common type of smooth muscle:– It contracts rhythmically as a unit, is electrically
coupled by gap junctions, and exhibits spontaneous action potentials
• Multiunit smooth muscle is located in large airways to the lungs, large arteries, arrector pili muscles in hair follicles, and the iris of the eye– It consists of cells that are structurally independent of
each other, has motor units, and is capable of graded contractions
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DEVELOPMENT ASPECTS OF
MUSCLES• Nearly all muscle tissue develops from specialized mesodermal
cells called myoblasts• Skeletal muscle fibers form through the fusion of several myoblasts,
and are actively contracting by week 7 of fetal development• Myoblasts of cardiac and smooth muscle do not fuse but form gap
junctions at a very early stage• Muscular development in infants is mostly reflexive at birth, and
progresses in a head-to-toe and proximal –to-distal direction• Women have relatively less muscle mass than men due to the
effects of the male sex hormone testosterone, which accounts for the difference in strength between the sexes
• Muscular dystrophy is one of the few disorders that muscles experience, and is characterized by atrophy and degeneration of muscle tissue– Enlargement of muscles is due to fat and connective tissue
deposit